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116 results on '"He, Zifan"'

1. Monolithic 3D FPGAs Utilizing Back-End-of-Line Configuration Memories

Author

Waqar, Faaiq, Zhang, Jiahao, Lu, Anni, He, Zifan, Cong, Jason, and Yu, Shimeng

Subjects
Computer Science - Emerging Technologies, B.3.1, B.7.1
Abstract

This work presents a novel monolithic 3D (M3D) FPGA architecture that leverages stackable back-end-of-line (BEOL) transistors to implement configuration memory and pass gates, significantly improving area, latency, and power efficiency. By integrating n-type (W-doped In_2O_3) and p-type (SnO) amorphous oxide semiconductor (AOS) transistors in the BEOL, Si SRAM configuration bits are substituted with a less leaky equivalent that can be programmed at logic-compatible voltages. BEOL-compatible AOS transistors are currently under extensive research and development in the device community, with investment by leading foundries, from which reported data is used to develop robust physics-based models in TCAD that enable circuit design. The use of AOS pass gates reduces the overhead of reconfigurable circuits by mapping FPGA switch block (SB) and connection block (CB) matrices above configurable logic blocks (CLBs), thereby increasing the proximity of logic elements and reducing latency. By interfacing with the latest Verilog-to-Routing (VTR) suite, an AOS-based M3D FPGA design implemented in 7 nm technology is demonstrated with 3.4x lower area-time squared product (AT^2), 27% lower critical path latency, and 26% lower reconfigurable routing block power on benchmarks including hyperdimensional computing and large language models (LLMs)., Comment: 8 Pages, 9 Figures, 3 Tables

Published
2025

2. Dynamic-Width Speculative Beam Decoding for Efficient LLM Inference

Author

Qin, Zongyue, He, Zifan, Prakriya, Neha, Cong, Jason, and Sun, Yizhou

Subjects
Computer Science - Artificial Intelligence
Abstract

Large language models (LLMs) have shown outstanding performance across numerous real-world tasks. However, the autoregressive nature of these models makes the inference process slow and costly. Speculative decoding has emerged as a promising solution, leveraging a smaller auxiliary model to draft future tokens, which are then validated simultaneously by the larger model, achieving a speed-up of 1-2x. Although speculative decoding matches the same distribution as multinomial sampling, multinomial sampling itself is prone to suboptimal outputs, whereas beam sampling is widely recognized for producing higher-quality results by maintaining multiple candidate sequences at each step. This paper explores the novel integration of speculative decoding with beam sampling. However, there are four key challenges: (1) how to generate multiple sequences from the larger model's distribution given drafts sequences from the small model; (2) how to dynamically optimize the number of beams to balance efficiency and accuracy; (3) how to efficiently verify the multiple drafts in parallel; and (4) how to address the extra memory costs inherent in beam sampling. To address these challenges, we propose dynamic-width speculative beam decoding (DSBD). Specifically, we first introduce a novel draft and verification scheme that generates multiple sequences following the large model's distribution based on beam sampling trajectories from the small model. Then, we introduce an adaptive mechanism to dynamically tune the number of beams based on the context, optimizing efficiency and effectiveness. Besides, we extend tree-based parallel verification to handle multiple trees simultaneously, accelerating the verification process. Finally, we illustrate a simple modification to our algorithm to mitigate the memory overhead of beam sampling...

Published
2024

3. Democratizing Digital Microfluidics by a Cloud-based Design and Manufacturing Platform

Author

Wang, Qining Leo, Cho, Hyun-Sung Eric, Li, Jia, Huang, Hsin-Chuan, Kin, Sarath, Piao, Yuhao, Xu, Lin, Tang, Kenneth, Kuiry, Shounak, He, Zifan, Yu, Danning, Cheng, Brian, Wu, Chang-Chi, Choi, Connor, Shin, Kwanwoo, Ho, Tsung-Yi, and Kim, Chang-Jin

Subjects
Engineering, Electrical Engineering, Chemical Sciences, Analytical Chemistry, Chemical sciences
Abstract

Akin to the impact that digital microelectronics had on electronic devices for information technology, digital microfluidics (DMF) was anticipated to transform fluidic devices for lab-on-a-chip (LoC) applications. However, despite a wealth of research and publications, electrowetting-on-dielectric (EWOD) DMF has not achieved the anticipated wide adoption, and commercialization has been painfully slow. By identifying the technological and resource hurdles in developing DMF chip and control systems as the culprit, we envision democratizing DMF by building a standardized design and manufacturing platform. To achieve this vision, we introduce a proof-of-concept cloud platform that empowers any user to design, obtain, and operate DMF chips (https://edroplets.org). For chip design, we establish a web-based EWOD chip design platform with layout rules and automated wire routing. For chip manufacturing, we build a web-based EWOD chip manufacturing platform and fabricate four types of EWOD chips (i.e., glass, paper, PCB, and TFT) to demonstrate the foundry service workflow. For chip control, we introduce a compact EWOD control system along with web-based operating software. Although industrial fabrication services are beyond the scope of this work, we hope this perspective will inspire academic and commercial stakeholders to join the initiative toward a DMF ecosystem for the masses.

Published
2024

4. Optimized Multi-Token Joint Decoding with Auxiliary Model for LLM Inference

Author

Qin, Zongyue, Hu, Ziniu, He, Zifan, Prakriya, Neha, Cong, Jason, and Sun, Yizhou

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Large language models (LLMs) have achieved remarkable success across diverse tasks, yet their inference processes are hindered by substantial time and energy demands due to single-token generation at each decoding step. While previous methods such as speculative decoding mitigate these inefficiencies by producing multiple tokens per step, each token is still generated by its single-token distribution, thereby enhancing speed without improving effectiveness. In contrast, our work simultaneously enhances inference speed and improves the output effectiveness. We consider multi-token joint decoding (MTJD), which generates multiple tokens from their joint distribution at each iteration, theoretically reducing perplexity and enhancing task performance. However, MTJD suffers from the high cost of sampling from the joint distribution of multiple tokens. Inspired by speculative decoding, we introduce multi-token assisted decoding (MTAD), a novel framework designed to accelerate MTJD. MTAD leverages a smaller auxiliary model to approximate the joint distribution of a larger model, incorporating a verification mechanism that not only ensures the accuracy of this approximation, but also improves the decoding efficiency over conventional speculative decoding. Theoretically, we demonstrate that MTAD closely approximates exact MTJD with bounded error. Empirical evaluations using Llama-2 and OPT models ranging from 13B to 70B parameters across various tasks reveal that MTAD reduces perplexity by 21.2% and improves downstream performance compared to standard single-token sampling. Furthermore, MTAD achieves a 1.42x speed-up and consumes 1.54x less energy than conventional speculative decoding methods. These results highlight MTAD's ability to make multi-token joint decoding both effective and efficient, promoting more sustainable and high-performance deployment of LLMs.

Published
2024

5. HMT: Hierarchical Memory Transformer for Long Context Language Processing

Author

He, Zifan, Qin, Zongyue, Prakriya, Neha, Sun, Yizhou, and Cong, Jason

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Transformer-based large language models (LLM) have been widely used in language processing applications. However, most of them restrict the context window that permits the model to attend to every token in the inputs. Previous works in recurrent models can memorize past tokens to enable unlimited context and maintain effectiveness. However, they have "flat" memory architectures, which have limitations in selecting and filtering information. Since humans are good at learning and self-adjustment, we speculate that imitating brain memory hierarchy is beneficial for model memorization. We propose the Hierarchical Memory Transformer (HMT), a novel framework that enables and improves models' long-context processing ability by imitating human memorization behavior. Leveraging memory-augmented segment-level recurrence, we organize the memory hierarchy by preserving tokens from early input token segments, passing memory embeddings along the sequence, and recalling relevant information from history. Evaluating general language modeling (Wikitext-103, PG-19) and question-answering tasks (PubMedQA), we show that HMT steadily improves the long-context processing ability of context-constrained and long-context models. With an additional 0.5% - 2% of parameters, HMT can easily plug in and augment future LLMs to handle long context effectively. Our code is open-sourced on Github: https://github.com/OswaldHe/HMT-pytorch.

Published
2024

14. Multimodal data fusion AI model uncovers tumor microenvironment immunotyping heterogeneity and enhanced risk stratification of breast cancer.

Author

Yu, Yunfang, Cai, Gengyi, Lin, Ruichong, Wang, Zehua, Chen, Yongjian, Tan, Yujie, He, Zifan, Sun, Zhuo, Ouyang, Wenhao, Yao, Herui, and Zhang, Kang

Subjects
CONVOLUTIONAL neural networks, LINCRNA, BREAST cancer research, CANCER relapse, TUMOR microenvironment
Abstract

Breast cancer is the leading cancer among women, with a significant number experiencing recurrence and metastasis, thereby reducing survival rates. This study focuses on the role of long noncoding RNAs (lncRNAs) in breast cancer immunotherapy response. We conducted an analysis involving 1027 patients from Sun Yat‐sen Memorial Hospital, Sun Yat‐sen University, and The Cancer Genome Atlas, utilizing RNA sequencing and pathology whole‐slide images. We employed unsupervised clustering to identify distinct lncRNA expression patterns and developed an AI‐based pathology model using convolutional neural networks to predict immune–metabolic subtypes. Additionally, we created a multimodal model integrating lncRNA data, immune‐cell scores, clinical information, and pathology images for prognostic prediction. Our findings revealed four unique immune–metabolic subtypes, and the AI model demonstrated high predictive accuracy, highlighting the significant impact of lncRNAs on antitumor immunity and metabolic states within the tumor microenvironment. The AI‐based pathology model, DeepClinMed‐IM, exhibited high accuracy in predicting these subtypes. Additionally, the multimodal model, DeepClinMed‐PGM, integrating pathology images, lncRNA data, immune‐cell scores, and clinical information, showed superior prognostic performance. In conclusion, these AI models provide a robust foundation for precise prognostication and the identification of potential candidates for immunotherapy, advancing breast cancer research and treatment strategies. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Development and validation of a preoperative CT-based radiomic nomogram to predict pathology invasiveness in patients with a solitary pulmonary nodule: a machine learning approach, multicenter, diagnostic study

Author

Huang, Luyu, Lin, Weihuan, Xie, Daipeng, Yu, Yunfang, Cao, Hanbo, Liao, Guoqing, Wu, Shaowei, Yao, Lintong, Wang, Zhaoyu, Wang, Mei, Wang, Siyun, Wang, Guangyi, Zhang, Dongkun, Yao, Su, He, Zifan, Cho, William Chi-Shing, Chen, Duo, Zhang, Zhengjie, Li, Wanshan, Qiao, Guibin, Chan, Lawrence Wing-Chi, and Zhou, Haiyu

Published
2022
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17. Magnetic resonance imaging radiomics predicts preoperative axillary lymph node metastasis to support surgical decisions and is associated with tumor microenvironment in invasive breast cancer: A machine learning, multicenter study

Author

Yu, Yunfang, He, Zifan, Ouyang, Jie, Tan, Yujie, Chen, Yongjian, Gu, Yang, Mao, Luhui, Ren, Wei, Wang, Jue, Lin, Lili, Wu, Zhuo, Liu, Jingwen, Ou, Qiyun, Hu, Qiugen, Li, Anlin, Chen, Kai, Li, Chenchen, Lu, Nian, Li, Xiaohong, Su, Fengxi, Liu, Qiang, Xie, Chuanmiao, and Yao, Herui

Published
2021
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18. Acoustic Source Localization System Based on Channel-Merged Fiber Optics Acoustic Sensing Array

Author

Hu, Rongrun, He, Zifan, Chen, Zian, and Hong, Guangwei

Abstract

Fiber optics acoustic sensing has garnered significant attention due to its distinct advantages. This paper proposes a channel-merged fiber optics acoustic sensing array structure based on Sagnac interferometer and the corresponding single-channel spatial filtering algorithm. The proposed structure simplifies the system and data processing, enabling accurate estimation of the direction-of-arrival for broadband acoustic signals. The simulation and experiment demonstrate the effectiveness and accuracy of the novel structure and algorithm. The single-channel spatial filtering algorithm exhibits better localization accuracy and robustness than broadband fixed beamforming in simulation. Furthermore, the experiment indicates that the novel structure and algorithm achieve accurate direction-of-arrival estimation of broadband signals in the range of 2 kHz to 12 kHz with a root mean square error of 0.6$^{\circ }$ and real-time localization of moving acoustic source.

Published
2025
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25. MRI-based radiomic models to predict surgical margin status and infer tumor immune microenvironment in breast cancer patients with breast-conserving surgery: a multicenter validation study

Author

Ma, Jiafan, primary, Chen, Kai, additional, Li, Shunrong, additional, Zhu, Liling, additional, Yu, Yunfang, additional, Li, Jingwu, additional, Ma, Jie, additional, Ouyang, Jie, additional, Wu, Zhuo, additional, Tan, Yujie, additional, He, Zifan, additional, Liu, Haiqing, additional, Pan, Zhilong, additional, Li, Haojiang, additional, Liu, Qiang, additional, and Song, Erwei, additional

Published
2023
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26. SNHG16/miR‐205/HDAC5 is involved in the progression of renal fibrosis.

Author

Zhao, Yingdan, Wang, Hanqing, Tang, Yunhai, Wang, Juan, Wu, Xia, He, Zifan, He, Yayun, and Tang, Zhihuan

Subjects
RENAL fibrosis, LINCRNA, CHRONIC kidney failure, MICRORNA, PULMONARY fibrosis, FIBRONECTINS, SYNCRIP protein
Abstract

Renal interstitial fibrosis (RIF) represents an irreversible and progressive pathological manifestation of chronic renal disease, which ultimately leads to end‐stage renal disease. Long noncoding RNAs (lncRNAs) have been suggested to be involved in the progression of RIF. Small nucleolar RNA host gene 16 (SNHG16), a member of lncRNAs, has been found to be involved in the progression of pulmonary fibrosis. This paper first researched the effect of SNHG16 on renal fibrosis. We established a unilateral ureteral obstruction (UUO)‐induced mouse RIF model by ligation of the left ureter to evaluate the biological function of SNHG16 in RIF. As a result, SNHG16 was upregulated in UUO‐induced renal fibrotic tissues. Knockdown of SNHG16 inhibited RIF and reduced alpha‐smooth muscle actin (α‐SMA), fibronectin, and college IV expression. miR‐205 was a target of SNHG16, and downregulated in UUO‐induced renal fibrotic tissues. Inhibition of miR‐205 promoted RIF and increased the expression of α‐SMA, college IV, and fibronectin. Overexpression of SNHG16 promoted the UUO‐induced RIF, but miR‐205 abrogated this effect of SNHG16. Histone deacetylase 5 (HDAC5) showed high expression in UUO‐induced renal fibrotic tissues. Knockdown of HDAC5 significantly reduced α‐SMA, fibronectin, and college IV expression in renal tissues of UUO‐induced mice. Inhibition of miR‐205 promoted HDAC5 expression, but knockdown of SNHG16 inhibited HDAC5 expression in renal tissues of UUO‐induced mice. In conclusion, SHNG16 is highly expressed in renal fibrotic tissues of UUO‐induced mice. Knockdown of SHNG16 may prevent UUO‐induced RIF by indirectly upregulating HDAC5 via targeting miR‐205. SHNG16 may be novel target for treating renal fibrosis. [ABSTRACT FROM AUTHOR]

Published
2024
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31. MRI-Based Radiomic Models to Predict the Surgical Margin Status and Infer the Tumor Immune Microenvironment in Breast Cancer Patients With Breast-Conserving Surgery: A Multicenter Validation Study

Author

Ma, Jiafan, primary, Chen, Kai, additional, Li, Shunrong, additional, Zhu, Liling, additional, Yu, Yunfang, additional, Li, Jingwu, additional, Ma, Jie, additional, Ouyang, Jie, additional, Wu, Zhuo, additional, Tan, Yujie, additional, He, Zifan, additional, Liu, Haiqing, additional, Pan, Zhilong, additional, Li, Haojiang, additional, Liu, Qiang, additional, and Song, Erwei, additional

Published
2022
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33. Development and validation of a preoperative CT-based radiomic nomogram to predict pathology invasiveness in patients with a solitary pulmonary nodule: a machine learning approach, multicenter, diagnostic study

Author

Huang, Luyu, primary, Lin, Weihuan, additional, Xie, Daipeng, additional, Yu, Yunfang, additional, Cao, Hanbo, additional, Liao, Guoqing, additional, Wu, Shaowei, additional, Yao, Lintong, additional, Wang, Zhaoyu, additional, Wang, Mei, additional, Wang, Siyun, additional, Wang, Guangyi, additional, Zhang, Dongkun, additional, Yao, Su, additional, He, Zifan, additional, Cho, William Chi-Shing, additional, Chen, Duo, additional, Zhang, Zhengjie, additional, Li, Wanshan, additional, Qiao, Guibin, additional, Chan, Lawrence Wing-Chi, additional, and Zhou, Haiyu, additional

Published
2021
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35. Development and Validation of a Preoperative Magnetic Resonance Imaging Radiomics–Based Signature to Predict Axillary Lymph Node Metastasis and Disease-Free Survival in Patients With Early-Stage Breast Cancer

Author

Yu, Yunfang, primary, Tan, Yujie, additional, Xie, Chuanmiao, additional, Hu, Qiugen, additional, Ouyang, Jie, additional, Chen, Yongjian, additional, Gu, Yang, additional, Li, Anlin, additional, Lu, Nian, additional, He, Zifan, additional, Yang, Yaping, additional, Chen, Kai, additional, Ma, Jiafan, additional, Li, Chenchen, additional, Ma, Mudi, additional, Li, Xiaohong, additional, Zhang, Rong, additional, Zhong, Haitao, additional, Ou, Qiyun, additional, Zhang, Yiwen, additional, He, Yufang, additional, Li, Gang, additional, Wu, Zhuo, additional, Su, Fengxi, additional, Song, Erwei, additional, and Yao, Herui, additional

Published
2020
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36. Machine learning magnetic resonance imaging radiomics predicts axillary lymph node metastasis in invasive breast cancer

Author

Yu, Yunfang, primary, He, Zifan, additional, Ouyang, Jie, additional, Tan, Yujie, additional, Chen, Yong-Jian, additional, Gu, Yang, additional, Mao, Luhui, additional, Wang, Jue, additional, Ren, Wei, additional, Lin, Lili, additional, Wu, Zhuo, additional, Liu, Jingwen, additional, Li, Anlin, additional, Ou, Qiyun, additional, Hu, Qiugen, additional, Chen, Kai, additional, Li, Chenchen, additional, Lu, Nian, additional, Li, Xiaohong, additional, Su, Fengxi Su, additional, Liu, Qiang, additional, Xie, Chuan-Miao, additional, and Yao, Herui, additional

Published
2020
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37. Machine learning radiomics for predicting recurrence risk in patients with early-stage invasive breast cancer

Author

Yao, Herui, primary, Yu, Yunfang, additional, Ren, Wei, additional, He, Zifan, additional, Chen, Yongjian, additional, Tan, Yujie, additional, Liu, Jingwen, additional, Li, Anlin, additional, Lu, Nian, additional, Ouyang, Jie, additional, Yang, Yaping, additional, Chen, Kai, additional, Li, Chenchen, additional, Ma, Mudi, additional, Li, Xiaohong, additional, Zhang, Rong, additional, Wu, Zhuo, additional, Su, Fengxi Su, additional, Hu, Qiugen, additional, Xie, Chuan-Miao, additional, and Song, Erwei, additional

Published
2020
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39. Machine learning radiomics signature on magnetic resonance imaging associated with phenotypes and disease-free survival in patients with breast cancer (RBC-01): A registry-based, multicenter cohort study.

Author

Yao, Herui, primary, Yu, Yunfang, additional, Tan, Yujie, additional, Hu, Qiugen, additional, Ouyang, Jie, additional, Chen, Yongjian, additional, Gu, Yang, additional, Li, Anlin, additional, He, Zifan, additional, Yang, Yaping, additional, Chen, Kai, additional, Ma, Jiafan, additional, Li, Chenchen, additional, Ma, Mudi, additional, Li, Xiaohong, additional, Zhong, Haitao, additional, Ou, Qiyun, additional, Wu, Zhuo, additional, Su, Fengxi, additional, and Song, Erwei, additional

Published
2020
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47. Different aberrant expression pattern of immune checkpoint receptors in patients with PTCL and NK/T‐CL.

Author

Lv, Xuewen, He, Zifan, Chen, Shaohua, Liao, Ziwei, Li, Yangqiu, Li, Wenyu, Liu, Sichu, and Wang, Liang

Subjects
*T cells, *IMMUNODEFICIENCY, *GENE expression, *POLYMERASE chain reaction, *IMMUNOTHERAPY, *IMMUNOSUPPRESSION, *CANCER
Abstract

Abstract: Aim: To better understand the T‐cell immunodeficiency status in patients with peripheral T‐cell lymphomas (PTCLs) and NK/T‐cell lymphomas (NK/T‐CLs), the T‐cell inhibitory receptors expression pattern was investigated. Methods: The expression levels of programmed death 1 (PD‐1), cytotoxic T lymphocyte‐associated antigen 4 (CTLA‐4), B/T lymphocyte attenuator (BTLA), lymphocyte‐activation gene 3 (LAG‐3), T‐cell immunoglobulin‐3 (TIM‐3), T‐cell immunoglobulin and ITIM domain (TIGIT) genes were detected in peripheral blood mononuclear cells (PBMCs) from patients and healthy volunteers by quantitative real‐time‐PCR, the correlation between different gene expression levels was analyzed. Results: Significantly higher expression of PD‐1, CTLA‐4, BTLA, LAG‐3, TIM‐3 and TIGIT can be observed as a common characteristic in patients with PTCL or NK/T‐CL. However, the coexpression pattern seemed different between subtypes. Their overexpression is also related to disease progression stage. Conclusion: We first characterized the expression pattern of six T‐cell inhibitory receptor genes in PTCL and NK/T‐CL, which might work as immune biomarkers for evaluation the immunosuppression status and help to establish the precision targets of immunotherapy. [ABSTRACT FROM AUTHOR]

Published
2018
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48. Paris polyphylla 26triggers G2/M phase arrest and induces apoptosis in HepG2 cells via inhibition of the Akt signaling pathway

Author

Li, Qiang, He, Zifan, Liu, Jiming, Wu, Jianlong, Tan, Guixiang, Jiang, Jianwei, Su, Zexuan, and Cao, Mingrong

Abstract

Objectives Paris polyphylla 26(PP-26) is a monomer purified from Paris polyphylla, which has traditionally been used as an antimicrobial, hemostatic, and anticancer agent in China. The anti-proliferation effect and underlying molecular mechanism of PP-26 were investigated in vitro.Methods The effects of PP-26 on various tumor cells were detected by MTT assay. PP-26-affected cell cycle and cell cycle-related proteins in HepG2 cells were detected by flow cytometry and western blotting, respectively. Apoptosis in response to PP-26 was assessed by Hoechst 33258 staining and flow cytometry. PP-26-affected apoptosis-related proteins and Akt signaling were detected by western blotting. The inhibitory effect of PP-26 on HepG2 cells, when combined with 5-fluorouracil (5-FU), was also assessed.Results PP-26 inhibited proliferation of HepG2 cells in a dose-dependent manner by triggering G2/M-phase arrest. Moreover, PP-26 induced apoptosis of HepG2 cells. Expression levels of apoptosis proteins caspase 9, caspase 3, PARP, Bcl-2, Bcl-xL, and Mcl-1 were downregulated, while the expression level of apoptosis protein Bax was upregulated. Expression levels of p-Akt, p-GSK-3β, and p-Foxo3 were downregulated. Combination with PP-26 enhanced 5-FU inhibition of HepG2 cell proliferation.Conclusions PP-26 triggers G2/M-phase arrest and induces apoptosis in HepG2 cells via inhibition of the Akt signaling pathway.

Published
2019
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